|Número de publicación||US7387635 B2|
|Tipo de publicación||Concesión|
|Número de solicitud||US 10/363,164|
|Número de PCT||PCT/EP2001/015357|
|Fecha de publicación||17 Jun 2008|
|Fecha de presentación||28 Dic 2001|
|Fecha de prioridad||12 Ene 2001|
|También publicado como||CA2421153A1, CN1486167A, EP1222903A1, EP1222903B1, US20040220582, WO2002054994A1|
|Número de publicación||10363164, 363164, PCT/2001/15357, PCT/EP/1/015357, PCT/EP/1/15357, PCT/EP/2001/015357, PCT/EP/2001/15357, PCT/EP1/015357, PCT/EP1/15357, PCT/EP1015357, PCT/EP115357, PCT/EP2001/015357, PCT/EP2001/15357, PCT/EP2001015357, PCT/EP200115357, US 7387635 B2, US 7387635B2, US-B2-7387635, US7387635 B2, US7387635B2|
|Cesionario original||Link Spine Group, Inc.|
|Exportar cita||BiBTeX, EndNote, RefMan|
|Citas de patentes (10), Citada por (45), Clasificaciones (11), Eventos legales (5)|
|Enlaces externos: USPTO, Cesión de USPTO, Espacenet|
To insert an intervertebral endoprosthesis consisting of two prosthesis plates, each to be connected to a respective vertebra, and of a prosthesis core, an instrument is known (EP-B-333990) which has two fork-shaped prosthesis holders for the two plates. These guides are arranged on an expansion forceps with which it is possible first to insert only the approximated plates, without the prosthesis core, between two vertebrae, then to move them apart by expansion of the forceps, so that the prosthesis core can be inserted between the plates, and finally to move them towards each other again until they definitively enclose the prosthesis core. After the prosthesis has in this way reached its intended position, the instrument can be removed. The fork-shaped prosthesis holders are open at the end, so that the instrument can be easily removed.
However, when removing the instrument from the prosthesis, difficulties are sometimes occasioned by high frictional forces which may be caused by the instrument tilting or by the prosthesis holders becoming jammed on the vertebrae. There is then a danger that the prosthesis will be moved in an undesirable way as a result of this friction or as a result of abrupt movement of the instrument.
In an instrument of a different generic type (DE-U-200 12 549; U.S. Pat. No. 5,431,658), intended for inserting a one-piece implant between two vertebrae, it is known to push the implant in between a pair of guide rods by means of an advancing rod which has a vertebral limit stop. When the implant has reached the intended depth in the intervertebral space, this limit stop bears against one of the vertebrae, by which means the instrument is withdrawn from the vertebrae and the prosthesis upon further advance movement. This solution cannot readily be used on those instruments (DE-U-299 16 078) in which, as in the generic type according to the invention, two holders are provided for prosthesis plates which have to be spread apart for inserting a prosthesis core.
The invention is based on the object of making it easier to remove the instrument mentioned at the outset. This object is achieved by the features of claim 1.
Accordingly, a withdrawal device is provided for withdrawing the instrument from the prosthesis plates located in the prosthesis holders and/or from at least one of the adjacent vertebrae. Arranged on each prosthesis holder there is a slide which has a prosthesis limit stop and/or a vertebral limit stop and is displaceable in a slide guide between a retracted end position and an advanced end position. This is done using an actuating device which has a spacing-independent device for coupling the movement of both slides.
The slide bearing the prosthesis limit stop or vertebral limit stop is preferably movable on the instrument in a slide guide which is parallel to the guide direction of the prosthesis holder. In this guide, it can adopt a rear end position in which the prosthesis is held completely by the prosthesis holder.
The slide is situated in this end position until the prosthesis has reached the implantation position intended for it. In the front end position of the slide, the prosthesis limit stop or vertebral limit stop is advanced so far that the prosthesis is no longer held by the prosthesis holder and the instrument can be removed without difficulty. When the prosthesis has been fitted and the withdrawal device actuated, the instrument is moved back on the path of the slide bearing on the prosthesis or on the vertebra in relation to these parts, i.e. withdrawn from them.
This withdrawal requires a certain force application. For this reason, a transmission device is expediently arranged between the withdrawal device and a handle provided for actuating the latter. This transmission device can be formed, for example, by a threaded spindle which at one end acts on the slide and at the other end has a control knob to be actuated by the physician. In a preferred embodiment, the transmission device is formed by a lever device.
The handle and the transmission can be arranged permanently on the instrument. However, to make the instrument easier to use and to ensure that the view during the insertion procedure is not obstructed by unnecessary parts, it may be expedient for the handle (if appropriate together with the transmission device) to be provided separately from the instrument and for these parts to be designed in such a way that they can be easily connected to the instrument when said instrument is in the operating position. For example, the handle and the transmission device are formed by a forceps. On one of its short levers (the working lever), the forceps has coupling means which are designed to complement coupling means on the instrument. The other working lever of the forceps comes into engagement with the slide or slides when the forceps is connected to the instrument.
During withdrawal, the withdrawal force should act on each of the two slides to ensure that one prosthesis plate is not subjected to greater loading than the other one. This applies regardless of the mutual spacing of the plates. In order to permit this, the invention provides for a rocker to be arranged between the withdrawal device and the parts of the slide interacting with the latter, the withdrawal force being transmitted substantially in equal parts to both slides via the pivot point of said rocker.
In another embodiment of the invention, the actuating device is securely connected to the instrument, and specifically to an instrument body which is securely connected to only one of the two prosthesis holders. Accordingly, the actuating device also acts directly only on this one slide. For synchronous driving of the other slide, a driver part is connected in terms of movement to the directly driven slide and engages with a driven part of the other slide via a spacing-independent coupling. This is preferably done by means of a limit stop which is connected to the directly driven slide and which is guided with it in the withdrawal direction and, independently of the mutual spacing of the prosthesis guides, reaches into the area of movement of another limit stop connected to the other slide. Other solutions are also conceivable, however. For example, the directly driven slide can have a toothed rack whose movement drives a pinion which is securely connected to a splined shaft which, in the area of the other slide, has a pinion which is axially displaceable thereon and which transmits its movement to a toothed rack connected to the other slide.
A particularly straightforward and easy-to-use instrument is obtained if the actuating device is not designed to be removable but instead is integrated for example as a push rod in the instrument body, in which case a grip can be connected to the end of the pusher rod and be moved in the longitudinal direction of the appliance.
If combined vertebral and prosthesis limit stops are provided, these can be used to determine the position of the prosthesis between the vertebrae, by inserting the instrument until the vertebral limit stop or the vertebral limit stops bear(s) on the vertebra or vertebrae. The prosthesis then has the position between the vertebrae which is determined by the depth spacing between the vertebral and prosthesis limit stops. In order to be able to insert the prosthesis to a different depth in the ventral-dorsal direction and take account of different anatomical relationships, this depth spacing can expediently be modified. This can be done, for example, by making available different slides which have a different depth spacing between the vertebral and prosthesis limit stops and which are inserted into the instrument as selected. Alternatively, the slide is permanently secured to one of the two limit stops, while the other limit stop is available in different formats or can be connected to the slide in different locking positions. An embodiment is preferred in which an adjustment device is provided which is designed for changing the spacing between the prosthesis limit stop and the vertebral limit stop. It is preferably arranged on the slide and has a slide guide with threaded spindle for one of the two limit stops. It is possible to determine pre-operatively, by evaluation of X-ray images, or intra-operatively, by taking measurements, how great the depth spacing between the prosthesis and the contact margin of the vertebra should be. Based on this value, the depth spacing between the vertebral and prosthesis limit stops of the instrument is then adjusted using the adjustment device. For this purpose, it is expediently provided with an adjustment scale. Inserting the instrument until its vertebral limit stops or its vertebral limit stop reach(es) the contact margin of the associated vertebra or vertebrae ensures that the prosthesis is positioned at the desired depth.
The invention is explained in greater detail below with reference to the drawing which depicts an advantageous illustrative embodiment. In said drawing:
The instrument shown in
Behind the space intended for receiving the prosthesis, the prosthesis holder 3 forms a central guide groove 10 which is arranged in the same direction and to which a bore 11 is contiguous towards the rear in the same direction. The groove 10 receives a slide 12 which can slide easily therein in the groove direction but which is guided securely and connected to a rod 13 which is guided through the bore 11 and rearward from the latter. The slide 12 can be displaced in the longitudinal direction in the groove 10, as can be seen from the different adjustment of the lower and upper slides in
The slide 12 forms a prosthesis limit stop 15 and a vertebral limit stop 16 which, in relation to the latter, is set back slightly, which limit stops are connected securely to one another in the example shown. In the rear end position of the slide, the prosthesis limit stop 15 lies flush with the rear edge 17 of the space provided for receiving the prosthesis 5. The instrument is introduced into the intervertebral space until the vertebral limit stop bears on the ventral margin of the vertebra in question. The spacing between the limit stops 15 and 16 thus determines the depth of insertion of the prosthesis. If the part 18 forming the vertebral limit stop 16 is made displaceable on the slide 12, the depth of insertion of the prosthesis can be predetermined variably. The enlarged view in
It can be clearly seen from the view in
Arranged on the front working lever 23 there is a rocker 28 which can pivot about an axis 27. The pivot point 27 lies approximately in the direction of the centre axis of the pin 25 when the withdrawal forceps is applied to the instrument (
The lower of the prosthesis holders 52 (
The rear pins 58, 59 of the scissor members 56, 57 slide in oblong holes in the instrument body 51, their direction corresponding to the longitudinal direction of the instrument, whereas the front pins 60 are connected rigidly to the prosthesis holders 52. In order to spread the prosthesis holders, a device is provided which moves the rear pin 58 of the scissor member 57 in the longitudinal direction of the instrument. It is for this purpose that the grip lever 61 is provided which can pivot on the instrument body about an axis 62 and has a working lever 63 which acts on the rear end of a slide block 64 which is part of a T-shaped carriage 65 (
Upon spreading of the prosthesis holders, considerable forces occur. For this reason, the hand lever 61 is supplemented with a threaded spindle 71 with a butterfly nut 72, which makes the procedure easier and makes it possible to temporarily hold the instrument in the spread position.
In this position, a channel-like free space is formed between the instrument body 51 and the plate 53 continuing the upper prosthesis holder 52 rearwards, on the one hand, and between the lateral scissor arrangements 56, 57 on the other hand. Using an instrument 76, the prosthesis core 77 can be guided through this free space between the prosthesis plates 52 (
The device for ejecting the prosthesis plates 53 from the prosthesis holders 52 or for withdrawing the instrument from the prosthesis holders or the adjoining vertebrae will now be described. The prosthesis holders 52 include, behind the space for receiving the prosthesis plates 53, a guide groove 80 which extends in the longitudinal direction of the instrument and thus in the direction of sliding of the prosthesis holders 52. It includes a slide 81 whose front end 82 strikes against the edge of the prosthesis plate located in the prosthesis holder and is for this reason referred to as a prosthesis limit stop. The rear end of the slide 81, not visible in
The movement of the handle 87 acts directly only on the slide 81 which is arranged in the lower part of the instrument, namely in the instrument body. To ensure that the slides 81 of both prosthesis holders move in synchrony, a movement-transmitting device is provided. The rod 83 controlling the slide 81 of the upper prosthesis holder is securely connected at its rear end to a limit stop element 85 which, like the limit stop element 84 of the lower prosthesis holder, is guided movably in the longitudinal direction of the instrument. The lower limit stop element 84 has, on both sides, upwardly protruding limit stop branches 90 which lie behind and adjacent to the branches 91 which protrude downwards on both sides from the upper limit stop element 85. When the prosthesis plates 53 are located in their rearmost position in the prosthesis holders 52 and the prosthesis limit stops 82 touch them, the mutually adjacent end faces of the limit stop branches 90, 91 also bear on one another. If, by actuating the handle 87, the lower limit stop element 84 with the limit stop branches 90 is now pushed forwards, their cooperation with the limit stop branches 91 of the upper limit stop element means that the slide 81 of the upper prosthesis holder is pushed forwards too. The two slides 81 thus move in synchrony. Since the interacting limit stop surfaces 90, 91 are perpendicular to the longitudinal direction of the instrument, the synchronous movement of the slides 81 is guaranteed independently of the respective spacing of the prosthesis holders from each other.
Each slide 81 has an attachment 95 rigidly connected to it, and a block 96 which is guided in the longitudinal direction of the slide and whose end face forms the vertebral limit stop. If the prosthesis holders with the prosthesis plates 53 located therein are driven into the space between two vertebrae, the end faces of the vertebral limit stops 96 finally bear on the ventral margins of the vertebral bodies. The spacing of the end faces of the vertebral limit stops 96 from the prosthesis plates thus defines the depth at which the prosthesis plates arrive in the intervertebral space. This depth can be changed by adjusting the vertebral limit stops 96 on the slides 81. This is done by means of a threaded spindle 97 which is guided in a threaded bore of the attachment 95 and whose end is connected to the vertebral limit stop 96 in such a way as to be rotatable, but fixed in the longitudinal direction. By turning the threaded spindle 97, the operating surgeon can thus determine in advance the depth of insertion of the prosthesis plates 53 in relation to the ventral margin of the associated vertebra. A scale 98 helps him do this.
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|Clasificación de EE.UU.||606/99|
|Clasificación internacional||A61F2/46, A61B17/56, A61B17/02|
|Clasificación cooperativa||A61F2002/4622, A61F2002/4628, A61F2002/4627, A61F2002/4623, A61B2017/0256, A61F2/4611|
|5 Mar 2003||AS||Assignment|
Owner name: WALDEMAR LINK (GMBH & CO.), GERMANY
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:KELLER, ARNOLD;REEL/FRAME:014296/0864
Effective date: 20030120
|24 Nov 2009||AS||Assignment|
Owner name: LINK SPINE GROUP, INC., MASSACHUSETTS
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:WALDEMAR LINK (GMBH & CO);REEL/FRAME:023565/0045
Effective date: 20021127
|25 Nov 2009||AS||Assignment|
Owner name: DEPUY SPINE INC., MASSACHUSETTS
Free format text: CHANGE OF NAME;ASSIGNOR:DEPUY ACROMED, INC.;REEL/FRAME:023565/0811
Effective date: 20030919
Owner name: DEPUY ACROMED , INC, MASSACHUSETTS
Free format text: ACQUISITION;ASSIGNOR:LINK SPINE GROUP, INC;REEL/FRAME:023565/0683
Effective date: 20030430
|21 Sep 2011||FPAY||Fee payment|
Year of fee payment: 4
|2 Dic 2015||FPAY||Fee payment|
Year of fee payment: 8